集成的交流和直流设计与分析
模型驱动的SCADA,EMS,PMS,ADMS和SAS
统一数字孪生平台设计,运营和自动化
弧闪分析识别和分析交流系统中高弧闪危险区域
使用NESC和OSHA的方法进行弧闪故障分析,适用于800kV及以下系统
直流弧闪模块计算直流网络入射能
Arc flash analysis extends well beyond the scope of IEEE 1584 and NFPA 70E methodology for transmission, distribution, industrial and renewable energy systems. For many years, the industry has been lacking an ‘all-in-one’ solution for performing AC and DC arc flash analysis on LV, MV, and HV systems.
This webinar will provide an overview of the fundamental differences between the IEEE 1584-2018 and existing arc flash methods. To better understand how the 2018 model combines empirical and arc flash physical behavior, the presentation will cover background and insights into the model development validation.
Introduction to ETAP Arc Flash Hazard Analysis module with instructions on how to setup arc flash calculations.
ETAP Arc Flash Analysis software is used to perform arc flash analysis for systems from 0.208 kV to 15 kV in accordance with IEEE 1584-2018 “IEEE Guide for Performing Arc Flash Hazard Calculations.” The software determines the incident energy and arc flash boundary values required to comply with NEC equipment labeling. It also provides hazard evaluation for shock protection and arc flash PPE according to NFPA 70E 2018.
This module calculates the incident energy for different types of DC applications.
ETAP ArcFault™ software is recommended for performing Arc Flash Analysis on electrical utilities and renewable power systems operating at 15 kV and above.
Two-part technical article published by the InterNational Electrical Testing Association (NETA) in NetaWorld, co-authored by Albert Marroquin, VP of V&V at ETAP.